Gun camera mount



March 14, 1950 c. s. RoBlNsoN GUN CAMERA MOUNT 5 Sheets-Sheet l Filed Dec. 1, 1945 INVENTOR. (C/4 J. P05/MMM C. S. ROBINSON GUN CAMERA MOUNT March 14, 1950 5 Sheets-Sheet 2 Filed Dec. 1, 1945 March 14, 1950 c. s. ROBINSON GUN CAMERA MOUNT 5 Sheets-Sheet 3 Filed Dec. l, 1945 INVENTOR. @ad J /Pa/A/IOM March 14, 1950 Filed DSC. 1, 1945 c. s; RoBlNsoN GUN CAMERA MOUNT TZV' 5 Sheets-Sheet 4 I N V EN TOR. @zu -J @9am/fam "BY www March 14, 1950 c. s. ROBINSON 2,500,379

GUN CAMERA MOUNT Filed Deo. 1, 1945 s-sneets-sheet 5 A TTOIP/VEK P'atentecl Mar. 14, 1950 NlTED STATES ATENT OFFICE 6 Claims.

This invention relates to shock absorbing camera mounts, particularly for military aircraft, where cameras are exposed to the shocks and vibrations incident to gun fire. The general object of the invention is to permit the taking of smooth, steady motion pictures during machine gun and cannon fire in `fighting airplanes, to help spot enemy ground positions during divebombing attacks, and record enemy combat tactics in the air for further study by our pilots. i

These cameras are generally arranged to automatically take pictures whenever the aircraft guns are fired. Various attempts have been made in the past to cushion the camera so as to eliminate objectionable shock and vibration, but due to the severity of the impacts ordinary cushioning has not been successful in attaining the results desired.

The principal object of the present invention is to improve the quality of such pictures and protect the camera; other objects are to provide convenient means for inserting and removing the camera and for adjusting it in correct alignment with the gun. Various other objects incidental thereto will become apparent as the description proceeds.

Referring now to the drawings, Fig. 1 is a side elevation view of the cushioned mount in which the camera is held.

Fig. 2 is a top plan View of the same.

Fig. 3 is an end elevation looking in the direction of the arrow in Fig. l.

Fig. 4 shows cross-sections taken on the line 6 4 of Fig. 3 and on the line 4 4 of Fig. 2.

Fig. is an enlarged cross-section taken on the line 5--5 of Fig. 1.

Similar reference numerals refer to similar parts thruout the various views.

As shown in Fig. l and Fig. 2, but probably best seen in cross-section in Fig. 3 and Fig. 4, the apparatus consists in general of an outer casing I carrying a number of cushions 2 which support an intermediate casing 3 in which is movably mounted a housing 4 adapted to hold a moving picture camera 5, (indicated by broken lines in Fig. 3). The cushions 2 are so mounted as to absorb the gun recoil shocks and other vibrations, and the inner housing ll is adjustable by means of the screws and 8 so that the camera may be aligned with the line of gun re when in action. Once so aligned, the camera may be inserted or removed without disturbing the setting, so as to maintain the alignment.

Taking up the construction more in detail, the outer casing I consists of a generally rectangular box-like structure whose exterior is shown in Fig. 1 and Fig. 2. In order to permit the use of an inserted camera 5, the casing I is open at both ends, as will be most clearly seen in Fig. 4. A number of sponge rubber blocks or cushions 2, generally eight of them, are mounted in cuplike recesses I0 located near the several corners of the rectangular casing I. These cushions 2 support the intermediate casing 3, which has similar cup-like recesses I0' to receive them. The cushions or elastic blocks 2 are preferably not bonded to the metal cups I0, I0 as has often been the case in the past, since our tests have shown that a lack of bonding improves the resilient or absorptive qualities, as well as permits the cushions to be readily changed for those of other desired characteristics. The cushions 2 absorb ordinary vibrations in compression, and generally absorb the heavy impacts of gun recoil in shear. Their Wide spacing gives the stability essential in a sighting instrument.

In order to stabilize the cushions 2 and permit their assembly under a certain amount of initial compression, as Well as to limit their expansion, rubber mounted retaining studs I2 are provided, as shown most clearly in Fig. l and Fig. 4. These operate generally in tension to oppose the cushions 2 which operate in compression or shear, and consist of cylindrical rubber bushings I3 as spacers surrounding the studs I2 with considerable clearance to permit recoil, and on the outside rubber washers Iii capped with metal washers and lock clips I5.

Referring again to Fig. 3 and Fig. 4, it will be seen that the foregoing construction provides an intermediate cushioned casing 3 somewhat similar to the outer casing I but protected from the shocks and vibrations which reach the outer casing I. A camera attached directly to this casing 3 would be protected from shocks, but would probably not be in exact alignment with the adjacent gun or line of iire, or might readily lose its alignment under service conditions. It is therefore necessary to provide an inner housing I to firmly hold the camera 5, this housing 4 being attached to the cushioned casing 3 but provided with means for adjusting its alignment relative thereto.

'Ihe housing 4 has at I6 a pivotal point of attachment to the casing 3, this attachment consisting of the stud I6 carrying the rounded or tapered collar I l fitting in a corresponding socket or hole i8 in the intermediate casing 3, in which it is held by the action of the spring I9. This pivotal connection, being of the ball and socket type, permits suiiicient freedom of motion for adjustment both vertically and transversely.

To steady the inner housing 4, permit vertical adjustment, and to provide a pivot line for transverse adjustment, a supplementary movable pivot 2G best seen in Fig. 4 is attached to the bottom of the housing 4 by means of a tapered or rounded collar 2l held in the slot 22 by the spring 23. It willbe notedthat whereas the rounded collar ll iitted in a corresponding rounded socket I3, the rounded collar 2l of the pivot 26 nts in a slot 22 so as to permit vertical tilting of the housing 4, but forming a rotational axis with the pivot IS for transverse adjustment. The reason for this will become apparent in connection with the elevating and traversing adjusting screws which will now be described.

Referring now to the drawings, more particularly Fig. 4 and 5, it willbe seen that a screw 'l is. held in a bracket 25 which is integral with or xedly attached to the inner casing 3. Threaded on..the screw l is a rotatable wheel or nut 2E held by a collar 21 from having any longitudinal movement relative to the bracket 25. In other swords, when the nut 2B. is turned, the screw 1 moveslongitudinally Within it and rela-tive'to the bracket 25. As seen in Fig. 5, when the nut 2E is` rotated the screw l' moves to the right or l left.

On the ends of the screw 'l are iianges engagingthe bracket 30 which is fastened to and extends down from the housing Il which holds the camera. Turning the traversing nut 25 and moving thel screw l to the right or left thus moves the housing 4 to the right or left to align the y camera.

The pivots l'l and 2l form the axis about which this transverse adjustment of the camera housing 4 takes place.

The vertical adjustment of the housing 4 is 0btainedby manipulating the knob 33 which turns the vertical screw S attached by the ball and socket joint 3d to the housing 4. This screw 8 is threaded into a tapped hole 35 passing thru the center of the larger screw 1. Rotation of the screw 8 lifts bodily up or down relative to the screw 'l and carries the housing 4 up or down with it, this up or down` motion being about the upper pivot Il as a center, while the lower pivot 2l slides in the slot 22 to permit the elevation. In order that thisup or down motion mounted on a mounting plate 55, which carries apa-ir of spring lingers or clips IA having buttons 52 which spring into the engaging holes 53 the housing d when the camera is inserted and hold it in place in the housing. The plate 5Bl slides in a carefully milled groove in the housing d, and the tips of the spring 5l project as shown in Fig. 2, sothat it can ybe depressed to remove the camera. The spring 5l also prevents any play or looseness in the mounting.

In order to lighten and stiffenvthe structure, which-is usually made of aluminum, plastic or some other light material, large holes are pro- 4 vided surrounded by projecting rims such as shown at in Fig. 5 and at 56 and 57 in Fig. 3. These rims 5S and 51 do not touch each other and serve no mechanical purpose other than lightening the structure and affording some access to the various casings.

The general operation will be apparent from the foregoing. If the camera is not equipped with a convenient sight or nder, a dummy camera having an equivalent sight or telescope may 4be inserted on a similar mounting plate 5i) and used for precise alignment before the camera itself is inserted. The vibrations are absorbed quite effectively by the large areas of the cushions acting in compression as distinguished from the shear type mounts. However, the apparatus has ample strength to resist the shocks of gun recoil, since those are taken by the same cushions in shear, transverselyof their wider dimension. ThisV combination of `compression for vibration and shear for shock has been tested in actual practice withsatisiactory results; and the fact that the cushions were not bonded to the metal hasvnot only improved their action but has also permitted the most desirable cushion density and precompression to be determined by trial.

While have in the foregoing described certain specic forms .by way of example, it will be understood that they are merely for purposes of illustration to make clear the principles of the invention, which is not limited to the particular forms shown, but is susceptible to various modiiications and adaptations in different installations as will be apparent to those skilled in the art Without departing from the scope of the invention as stated in the following claims.

l. In a camera mount, the combination of an outer casing, yan intermediate casing, vibration absorbent cushions between said casings, said cushions being normally in compression, an inner housing adapted to hold a camera, means for adjusting `the alignment of the inner housing relative to the casings, a camera mounting plate slidable inthe inner housing, and a spring retaining means for holding the plate in place.

2.L In a camera mount, the combination of an outer casing, an intermediate casing, vibration absorbent cushions between said casings, said cushions being normally in compression, cushioned retaining studs between said casings to limit the action of the i'lrst mentioned cushions, saidstuds normally operating in tension to oppose the Acushions. in compression, an inner housl vibrationabsorbent cushions between said casings, an inner housing adapted to hold a camera, a socket connection between the intermediate casing and the inner housing, and elevating and traversing screws for aligning the inner housing relative to the casings.V

Ll. In a -camera mount, the combination of an outer casing, an intermediate casing, vibration absorbent cushions. between said casings, an inner housing adapted `to hold a camera, a universal socket connection between the intermediate casing and the inner housing, a second socket between theintermediate casing and the inner housing, `said second socket being movable bodily in elevation about the rst mentioned socket as a center and permitting transverse motion of the housing about both sockets as an axis, a traversing screw, a traversing nut for moving the inner housing transversely relative to the casings, an elevating screw and knob for elevating the inner housing relative to the traversing screw and the casings, whereby the inner housing may b-e aligned relative to the casings.

5. In a camera mount, the combination of an outer casing, an intermediate casing, vibration absorbent cushions between said casings, an inner housing adapted to hold a camera, a universal socket connection between the intermediate casing and the inner housing, a second socket between the intermediate casing and the inner housing, said second socket being movable bodily in elevation about the first mentioned socket as a center and permitting transverse motion of the housing about both sockets as an axis, a traversing screw, a traversing nut for moving the inner housing transversely relative to the casings, an elevating screw and knob for elevating the inner housing relative to the traversing screw and the casings, means for locking said knob against vibration, a camera mounting plate slidable in the inner housing, and a spring retaining means for holding the plate in place.

6. In a camera mount, the combination of an outer casing, an intermediate casing, vibration absorbent cushions between said casings, said cushions being normally in compression, cush ioned retaining studs between said casings to limit the action of the rst mentioned cushions, an inner housing adapted to hold a came-ra, a universal socket connection between the intermediate casing and the inner housing, a second socket between the intermediate casing and the inner housing, said second socket being movable bodily in elevation about the first mentioned socket as a center and permitting transverse motion of the housing about both sockets as an axis, a traversing screw, a traversng nut for moving the inner housing transversely relative to the casings, an elevating screw for elevating the inner housing relative to the transverse screw and the casings, a camera mounting plate slidable in the inner housing, and a spring retaining means for holding the plate in place.

CECIL S. ROBINSON.

REFERENCES CTED The following references are of record in the ille of this patent:

UNITED STATESy PATENTS Number Name Date 1,880,992 Sparling Oct. 4, 1982 2,169,432 Robinson Aug. 15, 1939 2,284,771 Schrak June 2, 1942 

